I recently saw an example where the following was demonstrated to work:

T Add<T>(dynamic a, dynamic b)
    return a + b;

Add<string>("hello", "world");  // Returns "helloworld"

However, if I were to attempt to use expressions to create a "generic" Add function:

ParameterExpression left = Expression.Parameter(typeof(T), "left");
ParameterExpression right = Expression.Parameter(typeof(T), "right");
var add = Expression.Lambda<Func<T, T, T>>(Expression.Add(left, right), left, right).Compile();  // Fails with System.InvalidOperationException : The binary operator Add is not defined for the types 'System.String' and 'System.String' when T == String.

and then used this function with strings, it fails because the String type does not actually implement the + operator, but is simply syntactic sugar for String.Concat().

How then, does dynamic allow this to work? I figured that at runtime it is past the point where + would be rewritten using String.Concat().

  • "hello" + "world" is "helloworld", not "hello world". – user743382 Jul 29 '12 at 6:47
  • You're right. I corrected it. – Matt H Jul 29 '12 at 6:49
  • Hmm, my answer wasn't very relevant. Does the above Add method also work with delegate types? Like if you say Action a = () => { Console.WriteLine("Hello"); }; and then say var b = Add<Action>(a, a); then what happens at runtime (and if the call succeeds, will b(); work as expected afterwards?)? – Jeppe Stig Nielsen Jul 29 '12 at 8:39
  • Note that VB.NET uses & for concatenating, so that's why Expression.Add can't concat strings, as add represents universal +. DLR, on the other hand, knows about the actuals compiler and language it is used in, so it resolves + to either "add" or "concat". – IS4 Apr 11 '15 at 15:54

dynamic uses runtime helper functions that replicate C# compiler rules. One of these rules allows + on string objects even when no operator is defined by the framework. The standard numeric types such as int have no custom operator overload either, that too is done by the compiler and needs to be performed at runtime when using dynamic. This is why you need a reference to Microsoft.CSharp.dll: dynamic cannot work without those helper functions.

  • By looking at the generated IL and seeing what dynamic compiles to :) – user743382 Jul 29 '12 at 7:17

Based on the documentation, maybe instead of Expression.Add(left, right) you could say Expression.Add(left, right, method) where method is the MethodInfo of the static String.Concat(String, String).

var method = typeof(string).GetMethod("Concat", new[] { typeof(string), typeof(string), });

EDIT: Hmm, my answer sort of misses the point. The interesting question is: What operations does the runtime consider when it tries to resolve a + that the compiler has let through without type-checking? Bulit-in addition for numeric types? String concatenation? Delegate concatenation? User-defined operator overloads?


In your first example a and be are still strings (try this):

// Define other methods and classes here
T Add<T>(dynamic a, dynamic b)
    return a + b;

Maybe this makes more sense?

void Main()
var x = Add<string>(new { val = "hello"},new { val = "world"});  // Returns "hello world"  

// Define other methods and classes here
T Add<T>(dynamic a, dynamic b)
    return a.val + b.val;
  • I know they are still strings, but I thought that using dynamic meant that the CLR did not know they were strings until runtime. – Matt H Jul 29 '12 at 6:14
  • I believe dynamic only is dynamic for properties -- if the object is a type it does not lose the type. – Hogan Jul 29 '12 at 6:19
  • 2
    @MattH: You misunderstood. Being dynamic tells the compiler not to resolve anything until runtime. The decision to choose which methods to call are not actually checked until the expression involving the dynamic variables are reached. At runtime, it was determined that both a and b are strings and there exists an operator overload for addition between two strings, hence the concatenation. – Jeff Mercado Jul 29 '12 at 6:21
  • @MattH: Also, addition of strings is a special case to the compiler/runtime, there is no "real" operator overload for addition. There can't be otherwise the compiler wouldn't be able to efficiently concatenate multiple string constants through a single call to String.Concat(). – Jeff Mercado Jul 29 '12 at 6:27
  • 1
    @Hogan Then your comment doesn't make sense to me. The concrete type is only known at runtime, so some time at runtime, the + operator is replaced by String.Concat (or some equivalent method). This question asks where and how that happens, if it's not done by the compiler. – user743382 Jul 29 '12 at 7:03

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